Seed Tape Effects on Corn Emergence under Greenhouse Conditions

Crop Management Pub Date : 2014-12-01 DOI:10.2134/CM-2014-0051-BR

R. Venkatesh, P. Thomison, C. K. Gabriel, M. Bennett, E. M. Grassbaugh, M. Kleinhenz, S. Shearer, Santosh K. Pitla

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引用次数: 2

Abstract

Seed tape has recently received attention as an alternative planting system for smallholder farmers in underdeveloped regions of South America, Africa, China, and India (Mateus, 2014). Seed companies are also developing seed-tape planting systems for germplasm evaluations (Deppermann et al., 2013). Although seed tape has been promoted as a method for ensuring uniform seed spacing and plant density of smallseeded flowers, herbs, and vegetables (Chancellor, 1969), little or no information is available on the use of seed tape for largerseeded row crops and its effect on crop emergence. The objective of this study was to compare the emergence of corn seed embedded in tape to seeds planted by hand and to determine seed tape effects on rate of corn emergence. Experiments were conducted in 2013 in greenhouses at Ohio State University and consisted of two treatments. Corn seed embedded in tape made of biodegradable cellulose, which is the material most widely used by seed tape manufacturers, was compared with seeds planted by hand. Two corn hybrids were used in the study—Pioneer brand 37Y14 treated with fludioxonil, mefenoxam, azoxystrobin, thiabendaz, and thiamethoxam and DeKalb DKC 65-63 treated with difenoconazole, fludioxonil, mefenoxam, and thiamethoxam. Seed tape and seeds were hand planted 2 inches deep in flats with commercial top soil (Fig. 1). Greenhouse temperature was maintained at 70 to 75°F, and metal halide lamps provided approximately 220 mmol–1 m–2 s–1 supplemental photosynthetic photon flux for a 16-h daily photoperiod. Corn emergence was recorded at the first appearance of coleoptile and monitored for approximately 2 weeks. Mean emergence time (MET) and emergence rate index (ERI) were used to measure how quickly and uniformly the corn emerged after planting. Multiple emergence counts were taken and used to calculate MET and ERI (Karayel and Ozmerzi, 2002). Treatments were arranged in a randomized complete block design replicated three times for each run. The experiment was repeated eight times (total of 24 replications), and a total of 240 seeds was used for each treatment (120 Published in Crop Management DOI 10.2134/CM-2014-0051-BR © 2014 American Society of Agronomy and Crop Science Society of America 5585 Guilford Rd., Madison, WI 53711

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温室条件下种子带对玉米出苗的影响

作为南美洲、非洲、中国和印度欠发达地区小农的替代种植系统，种子胶带最近受到了关注(Mateus, 2014)。种子公司也在开发用于种质评估的种带种植系统(Deppermann et al.， 2013)。尽管种带作为一种确保小种子花卉、草本植物和蔬菜的均匀种子间距和植物密度的方法已得到推广(Chancellor, 1969)，但关于在大种子行作物中使用种带及其对作物出苗的影响的信息很少或根本没有。本研究的目的是比较玉米种子包埋与手工播种的出苗率，并确定种子包埋对玉米出苗率的影响。实验于2013年在俄亥俄州立大学的温室中进行，包括两种处理。将玉米种子嵌入由生物可降解纤维素制成的胶带中，这是种子胶带制造商最广泛使用的材料，并将其与手工播种的种子进行了比较。研究中使用了两种玉米杂交种:先锋牌37Y14用氟氧恶唑、美非诺萨姆、嘧菌酯、噻苯达司和噻虫嗪处理，而DeKalb DKC 65-63用异苯唑、氟氧恶唑、美非诺萨姆和噻虫嗪处理。将种子带和种子手工种植在2英寸深的商业表层土壤中(图1)。温室温度保持在70至75°F，金属卤化物灯提供约220 mmol-1 m-2 s-1的补充光合光子通量，每天16小时的光周期。在胚芽第一次出现时记录玉米出苗，并监测约2周。采用平均出苗期(MET)和出苗率指数(ERI)衡量玉米播种后出苗率的快速性和均匀性。多次紧急计数被用于计算MET和ERI (Karayel和Ozmerzi, 2002年)。治疗被安排在一个随机的完全块设计重复三次，每次运行。试验重复8次(共24个重复)，每个处理共使用240粒种子(120粒种子发表于Crop Management DOI 10.2134/CM-2014-0051-BR©2014 American Society of Agronomy and Crop Science Society of America 5585 Guilford Rd.， Madison, WI 53711

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Crop Management

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